gel treatments and water shutoff randy seright 575-835 ... of gels for wate… · why do we want to...
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Gel Treatments and Water Shutoff
Randy Seright575-835-5571
[email protected]://prrc.nmt.edu/randy/
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Gel/Water Shutoff Topics
1. Difference between polymer flooding and gel treatments. 3
2. Overview of gel treatments 93. Properties of gelants and gels 194. Placement concepts 905. Strategy for attacking problems 1196. Field examples 1527. Field operational issues 216
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POLYMER FLOODS VERSUS GEL TREATMENTS
Polymer floods use polymer solutions. Gels add a crosslinker to the polymer solution.
•The “Windfall Profits Act of 1980” encouraged grouping the two methods together as “polymer augmented waterfloods”.
•The Oil and Gas Journal does not distinguish the two methods in their biannual EOR survey.
What is the difference?3
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Polymersolution Gel
Distinction between a gel treatmentand a polymer flood.
For a polymer flood, polymer penetration into low-k zones should be maximized.
For a gel treatment, gelant penetration into low-k zones should be minimized.
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VISCOUS POLYMER SOLUTION
Crosslink site
CROSSLINKED POLYMER
(GEL)
Gelant = Polymer + crosslinker solution before gel formation.Gel = Crosslinked structure after reaction.
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Higher polymer & crosslinkerconcentrations yield stronger gels
If not enough polymer or crosslinker is present, no gel forms.
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GEL TREATMENTS ARE NOT POLYMER FLOODS
Crosslinked polymers, gels, gel particles, and “colloidal dispersion gels”:
•Are not simply viscous polymer solutions.
•Do not flow through porous rock like polymer solutions.
•Do not enter and plug high-k strata first and progressively less-permeable strata later.
•Should not be modeled as polymer floods.
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POLYMER FLOODING is best for improving sweep in reservoirs where fractures do not cause severe channeling.
•Great for improving the mobility ratio.•Great for overcoming vertical stratification.•Fractures can cause channeling of polymer
solutions and waste of expensive chemical.
GEL TREATMENTS are best treating fractures and fracture-like features that cause channeling.
•Generally, low volume, low cost.•Once gelation occurs, gels do not flow
through rock.8
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WHY DO WE WANT TO REDUCE WATER PRODUCTION?
REDUCE OPERATING EXPENSES• Reduce pumping costs (lifting and re-injection):
~$0.25/bbl ($0.01 to $8/bbl range).• Reduce oil/water separation costs.• Reduce platform size/equipment costs.• Reduce corrosion, scale, and sand-production treatment costs.• Reduce environmental damage/liability.
INCREASE HYDROCARBON PRODUCTION• Increase oil production rate by reducing fluid levels and
downhole pressures.• Improve reservoir sweep efficiency.• Increase economic life of the reservoir and ultimate recovery.• Reduce formation damage.
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MAIN POINTS I THINK YOU NEED TO KNOW
1. What polymers, gelants, and gels can/cannot do.
2. Why determining whether flow is radial (into matrix) or linear (through fractures) is critical in EVERY application.
3. A strategy for attacking problems.
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PROPERTIES OF AVAILABLE GELANTS/GELS
1. Early in the gelation process, gelants penetrate readily into porous rock.
2. After gelation, gel propagation through porous rock is extremely slow or negligible.
3. The transition between these two conditions is usually of short duration.
SPERE (Nov. 1993) 299-304; IN SITU 16(1) (1992) 1-16; and SPEPF (Nov. 1995) 241-248.
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WaterOilGelant
BASIC CALCULATIONS
Gelants can penetrate into all open zones.
An acceptable gelant placement is much easier to achieve in linear flow (fractured wells) than in radial flow.
In radial flow (unfractured wells), oil-productive zones must be protected during gelant placement.
Low k
High k
SPE 1733212
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KEY QUESTIONS DURING BULLHEAD INJECTION OF POLYMERS, GELANTS, OR GELS
• Why should the blocking agent NOT enter and damage hydrocarbon productive zones?
• How far will the blocking agent penetrate into each zones (both water AND hydrocarbon)?
• How much damage will the blocking agent cause to each zone (both water AND hydrocarbon zones)?
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A STRATEGY FOR ATTACKINGEXCESS WATER PRODUCTION
1. Consider and eliminate the easiest problems first.
2. Start by using information that you already have.
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Coning or Cusping
Flow Behind Pipe and Casing LeaksOpen Water Zone
Oil
Water
Channeling from Injectors
CAUSES OF EXCESS WATER PRODUCTION
Water
Oil
Oil
Water
WaterOil
Fracture
Water
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Many different types of excess water production problems exist.
Each problem type requires a different approach (e.g., different blocking agent
properties) for optimum solution.
Problem types should be adequately diagnosed before attempting a solution.
MAIN POINTS
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•Cement, sand plugs, calcium carbonate.•Packers, bridge plugs, mechanical patches.•Pattern flow control.• In fill drilling/well abandonment.•Horizontal wells.•Gels.•Polymer floods.•Resins.•Foams, emulsions, particulates, precipitates,
microorganisms, nanoparticles.
WATER CONTROL METHODS
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SOME MATERIALS FOR WATER SHUTOFF
CEMENTS+ Have excellent mechanical strength.+ Have good thermal stability (up to 450°C).- Do not penetrate readily into tight areas.- Do not always form a good pipe-formation seal.
RESINS+ Can penetrate into rock matrix and tight areas.o Stability depends on the particular resin (up to 250°C).- Chemistry can be very temperamental.- Are not reversible.- Are expensive.
GELS+ Can penetrate into rock matrix and tight areas.+ Reliability of gelation chemistry depends on the gelant.- Have lower thermal stability than other materials (<175°C).- Have low mechanical strength outside rock matrix. 18
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BASIC PROPERTIES OF GELANTS AND GELS
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Cr(III) acetate with high-Mw HPAM (Marcit CT)Cr(III) acetate with low-Mw HPAM (Maraseal)
Cr(III) propionate HPAM (Aquatrol IV, Matrol III) Cr(III) lactate/carboxylate HPAM. Cr(III) malonate HPAM
Preformed Particle Gels (PPG)Nanoparticles (Nanospheres)
Silicates (Injectrol, Zonelock, Pemablock, Siljel V, Silica-Polymer-Initiator)
In situ polymerization of acrylamides, acrylates, or derivatives (k-Trol, Permseal)Polyethyleneimine with t-butylacrylate/acrylamide copolymers (H2Zero)
HCHO or HMTA and phenolic/hydroquininone crosslinkers with PAM co- and terpolymers (Phillips and Unocal processes,Unogel, Organoseal, Multigel)
Crosslinked AMPS, NVP, acrylamide/acrylate co & terpolymers (HE)
Amphoteric polymers and terpolymers (WOR-Con, Aquatrol I, AquaCon)Hydrophobically modified polyDMAEMA (WaterWeb, CW-Frac)
Crosslinked expandable polymeric microparticles (Bright Water)
Al-citrate/HPAM (BP North Slope process)Al-citrate/HPAM/CPAM (Cat-An, colloidal dispersion gel)
AlCl3/OH- (DGS or Delayed Gelation System)Fe(OH)3 (Hungarian precipitation process)
A FEW OF THE HUNDREDS OF GEL SYSTEMS
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WHY CHOOSE ONE MATERIAL OVER ANOTHER?
•Cost•Availability•Sensitivity of performance to condition or composition variations•Blocking agent set time•Permeability reduction provided to water•Permeability reduction provided to oil or gas•Ability to withstand high-pressure gradients in porous rock•Ability to withstand high-pressure gradients in fractures or voids•Rheology and/or filtration properties•Ability to penetrate into fractures or narrow channels behind pipe•Stability at elevated temperatures•Environmental concerns
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“Polyacrylamide” or “HPAM” Polymers
[ - CH2 - CH - ]m - [ - CH2 - CH - ]n
C C
- O O O NH2acrylate acrylamide
• “degree of hydrolysis” = m / (n + m)
• For high Mw polymers: n 90,000, m 5,000 to 10,000
• Monomers are randomly positioned along the polymer chain
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CRITICAL OVERLAP CONCENTRATION – C*
DILUTE SOLUTION: C < C* TOTAL POLYMER VOLUME = TOTAL SOLUTION VOLUME: C = C*
POLYMERS INTERTWINE: C > C* 23
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POLYMER CROSSLINKING
Crosslink site
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VISCOSITY VERSUS TIME DURING GELATION
10
100
1000
10000
0 1 2 3 4 5 6 7 8 9 10
TIME, HOURS
VISC
OSI
TY, c
p
5000 - ppm HPAM417 - ppm chromium acetate1% NaCl, pH = 6, 41°C
Crosslink site
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GELANTS VERSUS GELS
+ Gelant=PolymerSolution
[e.g., HPAM]
Crosslinking Agent [e.g., Cr(III)]
In a gelant, few crosslinks have been made. Gelants can flow into porous rock just like uncrosslinked polymer solutions.
Gelant Geltime
(e.g. ~ 5 hrs)
Gels are 3-dimensional crosslinked structures that will not enter or flow through porous rock.
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GELANTS FLOW THROUGH POROUS ROCK;GELS DO NOT
Gelant flows freely like a polymer solution
Gel filling all aqueous pore space
Partial gel formation
MOBILE GELANT
IMMOBILE GEL
FLOW DIRECTION
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PROPERTIES OF AVAILABLE GELANTS/GELS
1. Early in the gelation process, gelants penetrate readily into porous rock.
2. After gelation, gel propagation through porous rock is extremely slow or negligible.
3. The transition between these two conditions is usually of short duration.
SPERE (Nov. 1993) 299-304; IN SITU 16(1) (1992) 1-16; and SPEPF (Nov. 1995) 241-248.
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GELATION DEPENDS ON POLYMER CONCENTRATIONS
C < C*: No gelation C C*: Gelation may or may not occur
C >> C*: Best opportunity for
3D gel formation
Crosslink site
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ABOVE C*, HIGHER CONCENTRATIONS OF POLYMER STRENGTHEN THE GEL
Low gel strength Strong gelIntermediate gel strength
Crosslink site30
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UP TO A POINT, CROSSLINK DENSITY AFFECTS GEL STRENGTH
Viscous Fluid Low gel strength Strong gel
Crosslink site
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High polymer MwLow polymer Mw
Low concentration
High concentration
Crosslink site
HIGHER Mw POLYMERS REQUIRE LOWER CONCENTRATIONS FOR 3D GEL FORMATION
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GELATION TIME DETERMINES HOW FAR A GELANT CAN PENETRATE INTO POROUS ROCK
Fast gelation
Slow gelation
Gelant
0
5
10
15
20
25
30
0 2 4 6 8 10 12 14 16 18 20 22 24Time, Hours
Rad
ius
of P
enet
ratio
n, fe
et
Injection Rate = 1 BPMHeight = 20 feetPorosity = 0.2
r = [q t / ( h )]0.5
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PROPERTIES PROBLEM 1Assume that a radius of 10 ft is needed for a gel treatment to be effective in a 30.5-ft-high formation that has an Sor of 30% and a porosity of 0.3. The selected gelant has a gelation time of 2 hours.
At what rate must the gelant be injected in order to reach the target radius of 10 ft? q = r2 h / t q = [(62.4 lbs/ft3)/(350 lb/B)] (10 ft)2 x (3.14)
(30.5 ft)(0.3)(1-0.3) / (2 hrs x 60 min/hr)q = 3 BPM
How much gelant should be injected?V = r2 h = 3.14 (10 ft)2 (30.5 ft)(0.3)(1-0.3) (62.4/350)V = 359 bbl
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GELATION TIME VERSUS TEMPERATURE
Increasing temperature by 10º C halves gelation time.
0.1
1
10
100
20 30 40 50 60 70 80Temperature (Degrees C)
Gel
atio
n Ti
me,
hou
rs
0.172% HPAM0.333% HPAM0.450% HPAM
Cr(III) crosslinker
t (hrs) = 10-7 e11000/(RT)
R=1.987 cal/g-molT= Temperature in °K
(data from Bob Sydansk)
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GELATION TIMES FOR MOST COMMERCIAL GELANTS ARE FAIRLY SHORT
EVEN AT MODERATE TEMPERATURES
Some exceptions:
• BP’s PEI crosslinked/t-butylacrylate-acrylamide polymers.
• Unocal’s organically crosslinked polymers.SPE 37246 and SPEPF May 1996, 108 - 112.
• Phillips’ organically crosslinked polymers. SPE 27826.
• Eniricerche’s Cr(III) - malonate crosslinkedpolymers. SPEPF Nov. 1994, 273 - 279.
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METHODS TO INCREASE GELATION TIMES
• Vary salinity, pH, or concentrations of chemical additives. SPE 27609.
• Use an unhydrolyzed polyacrylamide. With time, hydrolysis at elevated temperatures increases the number of crosslinking sites. SPE 20214.
• Cool the near-wellbore region prior to gelant injection. SPE 28502.
• Use a chemical retarding agent (e.g., lactate). SPEPF (Nov 2000) 270-278.
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GELATION TIME VERSUS POLYMER CONCENTRATION
0
10
20
30
40
50
60
0 0.1 0.2 0.3 0.4 0.5 0.6Polymer Concentration (% HPAM)
Gel
atio
n Ti
me
(hou
rs a
t 25C
)
For much of the concentration range, gelation time is
insensitive to concentration.For low concentrations, gelation time is verysensitive to concentration, and therefore difficult to control.
For low polymer concentrations, gel strength is sacrificed.
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High
Temp.n n
–- C - C - C - C -C = O C = O
NH2
– –– –
O
- C - C - C - C -C = O C = O
–
– ––
NH2 NH2
POLYMER HYDROLYSIS
POLYACRYLAMIDE HPAM
• Only carboxylate groups react with Cr(III), so Cr(III) crosslinking is delayed until enough COO- groups form.
• If too many COO- groups form, polymer precipitates if Ca2+ or Mg2+ is present.
• Trick only works at high temperatures (~120°C) with low-Mw polyacrylamide polymers.
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Gel Stability at Elevated TemperaturesSome feel that gel stability is no better than the stability of the polymer in the gel.
Gels can be made using polymers that are more stable than HPAM--e.g., amide/AMPS/NVP copolymers and terpolymers. SPERE Nov. 1987, 461-467.
Some evidence exists that gel stability can be increased by using very rigid gels. SPE 20214.
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CC/AP GelAged at 300Ffor 2.5 Years
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Gelant Sensitivity to pH
• For most gelants, the gelation reaction is sensitive to pH.
• Clays, carbonates, and other reservoir minerals can change pH -- thus interfering with gelation.
• Need to buffer gelants or develop gelants that are less sensitive to pH changes.
Marathon: Cr(III)-acetate and lactate crosslinkers. SPE 17329.
Phillips: Cr(III)-propionate crosslinker. SPERE Feb. 1988, 243-250.
Eniricerche: Cr(III)-malonate and lactate crosslinkers. SPEPF Nov. 1994, 273-279.
IFP: adsorbed polymers. SPE 18085.44
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Cr(IIII) can bind to:a. Polymerb. Acetate or other carboxylatec. Rock
Competition among the above affects gel stability, gel strength, gelant propagation, and gelation time.
Gelation time at high temperatures can be varied by adjusting the ratio of acetate/lactate (or glycolate or malonate).
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pH OF GELATION AFFECTS PERMEABILITY REDUCTION
1
10
100
1000
10000
4 5 6 7 8 9 10pH
Perm
eabi
lity
redu
ctio
n, F
rrw
Gel occupies very small fraction of PV
Gel occupies virtually all of PV
Gel performance is sensitive to pH
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pH OF GELATION AFFECTS PV OCCUPIED BY GEL
0
0.2
0.4
0.6
0.8
1
1.2
4 5 6 7 8 9 10pH
Frac
tion
of P
V op
en to
flow
af
ter g
el p
lace
men
t
Gel occupies very small fraction of PV
Gel performance is sensitive to pH
Gel occupies virtually all of PV
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Resistance factor = Water mobility Gelant mobility
Fr = (k/)water / (k/)gelant Gelant viscosity relative to water
Water residual = Water mobility before gel placementresistance factor Water mobility after gel placement
Frrw = (k/)water before gel / (k/)water after gel = permeability reduction
Oil residual = Oil mobility before gel placementresistance factor Oil mobility after gel placement
Frro = (k/)oil before gel / (k/)oil after gel = permeability reduction
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WEAK GELS• Occupy a very small fraction of the pore volume.• Usually consist of small gel particles that block pore throats.• Provide low to moderate permeability reductions.• Are usually unpredictable in particle size, particle concentration,
and permeability reduction provided.
ADSORBED POLYMERS• Occupy a very small fraction of the pore volume.• Usually block some fraction of the pore throats.• Provide low to moderate permeability reductions.• Because of mineralogical variations, are usually unpredictable in
adsorption level and permeability reduction provided.
PORE-FILLING GELS• Occupy most, if not all, of the aqueous pore space.• Reduce permeabilities to microdarcy levels. • Water flows through the gel itself.• Provide high permeability reductions.• Are much more predictable than weak gels and polymers.
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PERMEABILITY REDUCTION BY GELS"Strong" gels reduce k of all rocks to the same low value."Weak" gels restrict flow in low-k rocks by a factor that is the same or greater than that in high-k rock.
1 10 100 10000.001
0.01
0.1
1
10
100
1000
Initial rock permeability, md
Fina
l roc
k pe
rmea
bilit
y, m
d
weak gel
strong gel
1 10 100 10001
10
100
1000
10000
100000
1000000
Initial rock permeability, md
Res
idua
l res
ista
nce
fact
or
strong gel
weak gel
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0.01
0.1
1
10
100
1000
10000
0.1 1 10 100HPAM polymer concentration, %
k, µ
DWater can flow through gels although
gel permeability is very low.
k (µD) = 125 C-3
where C is % polymer.
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DISPROPORTIONATE PERMEABILITY REDUCTION
• Some gels can reduce kw more than ko or kgas.
• Some people call this “disproportionate permeability reduction” or “DPR”. Others call it “relative permeability modification” or “RPM”. It is the same thing!
• This property is only of value in production wells with distinct water and hydrocarbon zones. It has no special value in injection wells!!!
• NO KNOWN polymer or gel will RELIABLY reduce kw without causing some reduction in ko !!!
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• IDEALISTIC GOAL OF WATER SHUTOFF TECHNOLOGY: Materials that can be injected into any production well (without zone isolation) and substantially reduce the water productivity without significantly impairing hydrocarbon productivity.
• Most previous attempts to achieve this goal have used adsorbed polymers or “weak gels” and most previous attempts have focused on unfractured wells.
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Problems with adsorbed polymers and weak gels (suspensions of gel particles):
• They show large variations in performance.
• Frr values are greater in low-k rock than in high-k rock.
• Frro values must be reliably less than 2 for radial flow applications.
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Why do adsorbed polymers and weak gels show large performance variations?
• Mineralogy varies within rock, so the level of adsorption also varies.
• Particle suspensions (e.g., weak gels) often have uncontrolled size distributions.
• Pore size distributions vary in rock.56
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Conceptual solution to variations and k-dependence of gel performance:
USE A PORE FILLING GEL.
• Aqueous gels exhibit a finite, but very low permeability to water.
• If all aqueous pore space is filled with gel, kgel will dominate kw .
• So, rock with virtually any initial kwshould be reduced to the same final kw .
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0.1
1
10
100
1000
100 1000 10000k w at S or before polymer or gel, md
k w a
t Sor
afte
r pol
ymer
or g
el, m
d “Weak” gelPore-filling gel
Pore filling gels are more reliable than adsorbing polymers or weak gels.
SPE 99443
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0
20
40
60
80
100
0 100 200 300 400 500 600 700Time, days
Perm
eabi
lity
to b
rine,
mic
roda
rcys
kw can be quite stable to brine throughput and time.
Gel: 0.5% HPAM, 0.0417% Cr(III) acetate.Brine: 1% NaCl, 0.1% CaCl2.
Core: 8.1-darcy polyethylene. Pressure gradient: 30 psi/ft, 41°C.
SPE 99443
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WHY DO GELS REDUCE kw MORE THAN ko?FIRST WATER FLOW AFTER GEL PLACEMENTSPEREE (Oct. 2002) 355–364; SPEJ (Jun. 2006)
Strong gels fill all aqueous pore space. Water must flow through the gel itself. Gel permeability to water is typically in the µd range. Water residual resistance factor (Frrw) is typically > 10,000.
IMMOBILE GELOILWATER FLOW THROUGH GEL
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WHY DO GELS REDUCE kw MORE THAN ko?FIRST OIL FLOW AFTER GEL PLACEMENT
SPEREE (Oct. 2002) 355–364; SPEJ (Jun. 2006)
Even with low pressure gradients, oil forces pathways through by destroying or dehydrating the gel.
These oil pathways allow ko to be much higher than kw. Even so, ko is lower than before gel placement.
IMMOBILE GELOILOIL FLOW
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WATER FOLLOWING OIL AFTER GEL PLACEMENTSPEREE (Oct. 2002) 355–364; SPEJ (Jun. 2006)
Gel traps more residual oil. Increased Sor causes lower kw (kw 1000 times
lower after gel than before gel placement).
IMMOBILE GELOILWATERWATER FLOWWATER FLOW THROUGH GEL
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A Challenge:
Frro must be reliably < 2 for radial applications, but Frrw must be reliably high (>100) for linear flow applications.
Can pore-filling gels meet this challenge?
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Pre-gelkw, md
HPAM in gel, %
Post-gel kw, md Frrw
FinalFrro
356 0.5 0.015 23,700 1.2
389 0.5 0.005 77,800 1.231 0.5 0.007 4,430 2.240 0.4 0.019 2,110 2.0270 0.3 0.055 4,980 1.7
Frrw and final Frro values for pore filling Cr(III)-acetate-HPAM gels in Berea
sandstone.
SPE 9944364
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• Polymers and gelants usually enter both oil and water strata when placed.
• Oil must flow or wormhole through the water or gel bank to reach the well.
Prod
ucer
Low kstrata
High kstrata
IMPERMEABLE BARRIER
Prod
ucer
Low kstrata
High kstrata
IMPERMEABLE BARRIER
Gelant Injection Return to Production
Water Oil Gelant Gel
?
?
• For some polymers and gels, kw << ko.• However, some time is needed for oil rates to recover.
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0.001
0.01
0.1
1
10
100
0.1 1 10 100 1000Pore volumes injected
Perm
eabi
lity,
md
After gel placement, during water or oil flow,• kw stabilized very quickly at a low value.• ko rose gradually to a high value.
0.5% HPAM, 0.0417% Cr(III) acetate, 31 md Berea core at Sor during gelant placement.
Oil injection
Water injection
Frro = 2.2
Frrw = 4,430
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DISPROPORTIONATE PERMEABILITY REDUCTION
• Pore-filling gels show much more reproducible behavior than weak gels or adsorbed polymers.
• For pore-filling gels, the first-contact brine residual resistance factor is typically determined by the inherent permeability of the gel to water.
• Re-establishing high ko values requires large oil throughput.
• Achieving large throughput values in short times requires small distances of gelant penetration.
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TREATING FRACTURES WITH GELANTS & GELS
In most field applications, gel formulations:•Enter the wellhead as gelants (very little crosslinking
has occurred).•Enter the formation as gelants or partially formed
gels (i.e., shortly after the gelation time).
In small volume applications, gel formulations exist as fluid gelants or partially formed gels during most of the placement process.
In large volume applications, gel formulations exist as formed gels during most of the placement process.
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10
100
1000
10000
0.1 1 10 100 1000Gel injection delay, hours
Gel
effe
ctiv
e vi
scos
ity in
the
frac
ture
, cp
Gel: 0.5% HPAM, 0.0417% Cr(III) acetate.Injection rate: 4,130 ft/d, wf = 1 mm, 41°C.
•Compared with formed gels, gelants show much lower effective viscosities during placement in fractures.
•Low viscosities improve injectivity but often allow gravity segregation during placement in fractures.
gelants
partiallyformedgels
formed gels
SPEPF Aug. 2005, 240
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PLACING FORMED GELS IN FRACTURESSuccessful large-volume Cr(III)-acetate-HPAM gel
treatments in naturally fractured reservoirs: •Typically injected 10,000 to 15,000 bbls gel per
injection well.•Injection times greater than gelation time by ~100X.•Gels extruded through fractures during most of the
placement process.
•What are gel properties during extrusion through fractures?
•How far can the gels be expected to propagate?•How will the gels distribute in a fracture system?•How much gel should be injected?
SPEPF (Nov. 2001) 225-232. 70
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0
5
10
15
20
0 10 20 30 40 50 60 70 80Fracture volumes of gel injected
Pres
sure
gra
dien
t, ps
i/ft
Pressure Behavior in a Fracture During Gel Extrusion
Gel injection rate = 2,000 cm3/hr or 4,130 ft/d,Lf x hf x wf = 48x1.5x0.04-in.
After gel breaks through at the end of a fracture, pressure gradients are stable (no screen out or progressive plugging).
Core is initially saturated with brine.
Gel: 1-day-old 0.5% HPAM, 0.0417% Cr(III) acetate
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PROPERTIES OF FORMED GELS IN FRACTURES
• A minimum pressure gradient must be met before a formed gel will extrude through a fracture.
• Once the minimum pressure gradient is met, the pressure gradient during gel extrusion is not sensitive to injection rate.
• The pressure gradient for gel extrusion varies inversely with the square of fracture width.
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Pressure gradients required to extrude a Cr(III)-acetate-HPAM gel through fractures
0.1
1
10
100
1000
0.001 0.01 0.1 1
Fracture width, inches
Pres
sure
gra
dien
t, ps
i/ft
650-mD sandstone50-mD sandstone1.5-mD limestone
dp/dl=0.02/wf2
0.5% HPAM,0.0417% Cr(III)-acetate
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PROPERTIES PROBLEM 4AA formed gel containing 0.5% high-Mw HPAM crosslinked with Cr(III)-acetate was extruded into a 4-mm-wide, 100-ft high fracture at a rate of 1 BPM. What pressure gradient would occur in the fracture?
dp/dl (psi/ft) = 0.02/ (wf)2 where wf is in inches
dp/dl (psi/ft) = 0.02/ [(4 mm)/(25.4 mm/inch)]2
dp/dl = 0.8 psi/ft
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PROPERTIES PROBLEM 4BFor the previous problem, the reservoir pressure (static downhole pressure) was 1000 psi. The maximum allowable downhole pressure during gel injection is 2000 psi. What is the maximum distance that this gel could be expected to penetrate into the fracture?
L = p / (dp/dl)
L = [(2000 psi)-(1000 psi)]/(0.8 psi/ft)
L = 1250 ft
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dp/dl = 0.0979e 2.27%HPAM
R 2 = 0.9894
dp/dl = 8.54e 2.27%HPAM
R 2 = 0.9863
0.1
1
10
100
1000
0 0.5 1 1.5 2Alcoflood 935 HPAM Concentration, %
Pres
sure
gra
dien
t or 2
G'/w
, psi
/ft
2G/wf
dp/dl
EFFECT OF POLYMER CONCENTRATIONON EXTRUSION PRESSURE
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0
0.5
1
1.5
2
0 20 40 60 80 100Temperature, °C
Pres
sure
gra
dien
t rel
ativ
e to
th
at a
t 20°
CPRESSURE GRADIENTS DURING GEL EXTRUSION
ARE NOT SENSITIVE TO TEMPERATURE
1st set: Lf x hf x wf = 48x1.5x0.04 in.2nd set: Lf x hf x wf = 48x1.5x0.04 in.3rd set: Lf x hf x wf = 6x1.5x0.04 in.
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Injection flux, ft/d 413 1,030 4,130 33,100Average dp/dl, psi/ft
28 29 40 18
Gel breakthrough, fracture volumes
15 6.0 4.0 1.7
Average gel dehydration, C/Co
27 17 11 4
GELS DEHYDRATE DURING EXTRUSIONCr(III)-acetate-HPAM gel
Fracture: Lf = 4 ft, hf = 1.5 in., wf = 0.04 in.Injected 80 fracture volumes of gel (~4 liters)
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PROPERTIES OF Cr(III)-ACETATE-HPAM GEL DURING EXTRUSION THROUGH FRACTURES
• Gels dehydrate, thus retarding the rate of movement of the gel front.
• Although water leaks off through the fracture faces, crosslinked polymer cannot.
• Dehydrated (concentrated) gel is immobile.
• Mobile gel is the same as the injected gel.
• Mobile gel wormholes through immobile gel.
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1-day-old 1X Cr(III)-acetate HPAM gel (in blue) wormholing through dehydrated gel that is 12 timesmore concentrated.
Fracture dimensions = 15x15x0.1 cm
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0.01
0.1
1
10
0.0001 0.001 0.01 0.1 1 10Time, days
Leak
off r
ate,
ft/d
0.020.040.080.16 ul = 0.05 t -0.55
wf,inches
Gel: 0.5% HPAM, 0.0417% Cr(III)-acetate, 41°C.Flux: 129 to 66,200 ft/d,Lf : 0.5 to 32 ft,hf : 1.5 to 12 inches,wf : 0.02 to 0.16 inches.
Water Leakoff Rates From Gel During Extrusion
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WHAT IS THE RATE OF GEL PROPAGATION THROUGH A FRACTURE?
The rate of water loss from the gel is given by: ul = 0.05 t -0.55. Combine with a mass balance.
Assuming two fracture wings, the rate of gel propagation, dL/dt, is:
dL/dt = [qtot – 4hf L ul ] / [2 hf wf]
dL/dt = [qtot – 4hf L 0.05 t –0.55] / [2 hf wf]
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1
10
100
1000
10000
10 100 1000Distance of penetration, ft
Volu
me
inje
cted
per
100
ft o
f fr
actu
re h
eigh
t, bb
ls
Predictions in Long Two-Wing Fractures
wf = 0.04 in.
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• The degree of gel dehydration depends on injection rate and time.
• When injecting gel into a fracture, can a more rigid gel plug be formed in the near wellbore portion of the fracture simply by reducing the injection rate?
Gel injected at high rate:maximum penetration,minimum dehydration
Gel injected at low rate: maximum dehydration for greater rigidity and strength.
wel
lbor
e FRACTURE
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0
4
8
12
16
0 1 2 3 4Distance along the fracture, ft
Con
cent
ratio
n, C
/Co
HPAM
COMPOSITION OF GEL IN THE FRACTURE.Injection rate = 2,000 ml/hr until fracture filled with gel.
Then the rate was dropped to 20 ml/hr.
Original gel: 0.5% HPAM, 0.0417% Cr(III) acetate
chromium
Lf x hf x wf = 48x1.5x0.04 in.
90 ml gel injected at 2,000 ml/hr,430 ml gel injected at 20 ml/hr.
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PROPERTIES OF FORMED GELS DURING EXTRUSION THROUGH FRACTURES
• Dehydration limits the distance of GELpenetration along a fracture.
• For a given total volume of GEL injection, the distance of gel propagation will be maximized by injecting at the highest practical injection rate.
• To double the distance of GEL penetration into a long fracture, the GEL volume must be tripled.
• More concentrated, rigid GELS can be formed by injecting slower—decreasing the probability of gel washout.
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Lower Leakoff Rates in Low-k Rock• For fractures in <10 md carbonate rocks, leakoff rates are
less than expected during gel extrusion.• Is this because the flow capacity of the rock is not sufficient
to adequately drain the water?• Because rock flow capacity is much greater in field fractures,
this may be an experimental artifact.
87
0.001
0.01
0.1
1
0.001 0.01 0.1 1
Time of gel injection, days
Leak
off r
ate,
ft/d
5500-ppm gel7000-ppm gel8500-ppm gel10000-ppm gelpredictionbrine
Water leakoff rate, 41°C for Cr-acetate-HPAM gels. Aged 1 day at 41°C before injection. 500 cm3/hr injection rate. 2-mm frac
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Dehydration of Gels in Fractures by Imbibition(Brattekas: SPE 153118, 169064, 173749, 180051)
• Water-wet rock can suck water out of gels in fractures—thus collapsing those gels.
• This action could be of value for fractures in oil zones because you want those fractures to remain open to flow.
• For fractures in water zones, if no oil is present, no capillary action occurs so the gels remain intact in the fracture and flow remains restricted.
• Depending on the salinity of the gel and water post-flush, the flow capacity of gel-filled fractures can be varied.
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WHY CHOOSE ONE MATERIAL OVER ANOTHER?
•Cost•Availability•Sensitivity of performance to condition or composition variations•Blocking agent set time•Permeability reduction provided to water•Permeability reduction provided to oil or gas•Ability to withstand high-pressure gradients in porous rock•Ability to withstand high-pressure gradients in fractures or voids•Rheology and/or filtration properties•Ability to penetrate into fractures or narrow channels behind pipe•Stability at elevated temperatures•Environmental concerns
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Objective of Water Shutoff TreatmentsObjective is to shut off water without seriously damaging hydrocarbon productive zones.Want to maximize blocking agent penetration into water-source pathways, while minimizing penetration into hydrocarbon zones.Want to maximize permeability reduction in water-source pathways, while minimizing permeability reduction in hydrocarbon zones.
PLACEMENT CONCEPTS
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GEL TREATMENTS ARE NOT POLYMER FLOODS
Crosslinked polymers, gels, gel particles, and “colloidal dispersion gels”:
•Are not simply viscous polymer solutions.
•Do not flow through porous rock like polymer solutions.
•Do not enter and plug high-k strata first and progressively less-permeable strata later.
•Should not be modeled as polymer floods.91
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Distinction between a blocking agentAnd a mobility control agent.
For a mobility control agent, penetration into low-k zones should be maximized.
For a blocking agent, penetration into low-k zones should be minimized.
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KEY QUESTIONS DURING BULLHEAD INJECTION OF POLYMERS, GELANTS, OR GELS
• Why should the blocking agent NOT enter and damage hydrocarbon productive zones?
• How far will the blocking agent penetrate into each zones (both water AND hydrocarbon)?
• How much damage will the blocking agent cause to each zone (both water AND hydrocarbon zones)?
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WaterOilGelant
BASIC CALCULATIONS
Gelants can penetrate into all open zones.
An acceptable gelant placement is much easier to achieve in linear flow (fractured wells) than in radial flow.
In radial flow (unfractured wells), oil-productive zones must be protected during gelant placement.
Low k
High k
SPE 1733294
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Water
Gel
k1
k2
k1
k2
LINEAR vs RADIAL FLOWExample: k /k = 10, F = 1, F = 101 2 r rr
Injectivity Loss
Core 1:Core 2:
90%47%
90%87%
Linear Radial
Core 1
Core 2
Core 1
Core 2
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1
10
100
10 100 1000Permeability to brine at Sor, md
Res
idua
l res
ista
nce
fact
or
Adsorbed polymers, “weak” gels, particle suspensions, and “dispersions” of gel particlesreduce k in low-k rock more than in high-k rock.
Vela et al. SPEJ (April 1976), 84
Adsorbed HPAM Mw= 5.5 x 106
20% hydrolysis.Sandstone rock.
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Layer kw @ Sor, md
Gel radius,
ft
Permeability reduction
factor (Frrw)
Layer flow capacity,
final/initial1 453 30 1.2 0.942 137 16.5 2.4 0.713 45 9.5 9.9 0.314 17 5.8 27 0.155 12 4.9 45 0.10
Contrary to some claims, adsorbed polymers, “weak” gels, and gel
“dispersions” can harm flow profiles!!!
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GEL PLACEMENT IS CRITICALLY DIFFERENT IN RADIAL FLOW THAN IN LINEAR FLOW!!!
This conclusion is not changed by:• Non-Newtonian rheology of gelants.• Two-phase flow of oil and water.• Fluid saturations, capillary pressure behavior.• Anisotropic flow or pressure gradients.• Pressure transient behavior.• Well spacing, degree of crossflow.• Chemical retention & inaccessible pore volume.• Different resistance factors in different layers.• Diffusion, dispersion, & viscous fingering.
See: http://baervan.nmt.edu/randy/gel_placement 98
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SITUATION: Someone bullheads a conventional gel treatment into an “unfractured” well, without any special provision to protect oil zones. After the treatment, the flow profile “improved”.
• Possibility 1: The claim is true, we need to rewrite all the petroleum engineering texts, and someone deserves a Nobel prize.
• Possibility 2: The well actually contained a fracture, fracture-like feature or void channel.
• If fluids can cross flow out beyond the wellbore, does a flow profile mean anything?
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COMMON PHILOSOPHY: “I don’t care whether my high-permeability streak is a fracture or not. I just want to fix it.”
Your treatment has a much better chance of success if you decide in advance whether you have linear flow through fractures or voidsversus radial flow through matrix!!!
• The appropriate composition for a fracture or void is different than for matrix.
• The optimum treatment volume for a fracture or void is different than for matrix.
• The proper placement method for treating a fracture or void is different than for matrix.
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high k
low k
high k
low k
Ideal Near-Wellbore Treatment
Ideal Far-Wellbore Treatment
high klow k
Reality Water Oil
Gel Placement in Heterogeneous Systems with Crossflow
Gel
SPE 24192
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200-ppm xanthan, 3 cp
500-ppm xanthan, 8 cp
1000-ppm xanthan, 23 cp
2000-ppm xanthan, 75 cp
Xanthan Water
Crossflow in a two-layer beadpack. SPE 24192Xanthan solutions displacing water; k /k = 11.2.1 2
0-ppm xanthan, 1 cp Layer 1Layer 2
Layer 1Layer 2
Layer 1Layer 2
Layer 1Layer 2
Layer 1Layer 2
CROSSFLOW MAKES GEL PLACEMENT MORE DIFFICULT!!!
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EFFECT OF GRAVITY ON GELANT PLACEMENT
Gravity component of the darcy equation:
uz = - k g / [1.0133 x 106 µ] (Darcy units)
Dimensionless gravity number:
G = [k g sin ] / [1.0133 x 106 µ u]
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0.001
0.01
0.1
1
10
100
1000
0.001 0.01 0.1 1 10 100 1000k/µ, darcys/cp
Vert
ical
vel
ocity
, ft/d
1 g/ml0.3 g/ml0.1 g/ml0.01 g/ml
EFFECT OF GRAVITY ON GELANT PLACEMENT
SPEPF (Nov. 1996) 241-248
Density difference
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GRAVITY EFFECTS
1.During gelant injection into fractured wells, viscous forces usually dominate over gravity forces, so gravity will have little effect on the position of the gelant front.
2.During shut-in after gelant injection, a gelant-oil interface can equilibrate very rapidly in a fracture.
3.In radial systems (e.g., unfractured wells) viscous forces dominate near the wellbore, but gravity becomes more important deeper in the formation. Long gelation times will be required to exploit gravity during gelant injection in unfractured wells.
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SPEPF (Nov. 1993) 276-284
Water Oil Gelant
Relative permeability and capillarypressure effects will not preventgelants from entering oil zones.
To prevent damage to oil zones,gel must reduce k much morethan k .
Gelant Injection Return to Production
GEL PLACEMENT IN PRODUCTION WELLS
Low k
High k
Low k
High k?
?
Gel
ow
MISCONCEPTION: Water-based polymers and gelants won’t enter oil zones.
If this is true, why does a waterflood work?
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DISPROPORTIONATE PERMEABILITY REDUCTION
• Some gels can reduce kw more than ko or kgas.
• Some people call this “disproportionate permeability reduction” or “DPR”. Others call it “relative permeability modification” or “RPM”. It is the same thing!
• This property is only of value in production wells with distinct water and hydrocarbon zones. It has no special value in injection wells!!!
• NO KNOWN polymer or gel will RELIABLY reduce kw without causing some reduction in ko !!!
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In the absence of fractures, casing leaks, andflow behind pipe, gel treatments are not expected
to improve the WOR from a single zone.
SPEPF (Nov. 1993) 276-284
fW2
fO2
fW1
fO1
before gel after gel: f = f and f = fW2 W1 O2 O1
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GEL TREATMENTS FOR RADIAL FLOW PROBLEMS• Zones MUST be separated by impermeable barriers.• Hydrocarbon-productive zones MUST be protected
during gelant injection.• Loss of water productivity or injectivity is not
sensitive to radius of gelant penetration between 5 and 50 ft.
• Gel permeability reductions > 20 cause > 80% loss of water productivity.
Low k
High k
packer
WaterGelant
Oil
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0
0.2
0.4
0.6
0.8
1
1 10 100Residual resistance factor (F rr)
Frac
tion
of o
rigin
al
prod
uctiv
ity40-acre 5-spot pattern, rw = 0.33 ft
rgel = 5 ft
rgel = 50 ft
Radial Flow Requires That Frro < 2 and Frrw > 20
In oil zone,Frr must be < ~2 tomaintain oil productivity.
In water zone, Frr should be > ~20 to reduce water productivity.
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With present technology, hydrocarbon zones MUST be protected during gelant placement in unfractured production wells.
To avoid this requirement, we need a gel that RELIABLY reduces kw by >20X but reduces ko by < 2X.
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Oil Oil
Water WaterFracture faces
Frac
ture
Gel
Gel
Gel Restricting Water Flow into a Fracture
Equivalent resistance to flow added by the gel• In oil zone: 0.2 ft x 50 = 10 ft.• In water zone: 0.2 ft x 5,000 = 1,000 ft.
IN SITU 17(3), (1993) 243-272
“DPR” or “RPM” is currently most useful in linear-flow problems (e.g., fractures)
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0 75150
225300
0
75
15002468
10121416
18
20
Pres
sure
, MPa
x, m
y, m
When fractures cause severe channeling, restricting the middle part of the fracture provides the best possibility. (See our 2005 annual report).
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When multiple fracture pathways are present, some benefit will result from plugging the middle part of the most conductive fracture. (E.g., a 90%
water cut is better than a 99% water cut.)
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WaterOilGelant
KEY PLACEMENT POINTS
Gelants can penetrate into all open zones.
An acceptable gelant placement is much easier to achieve in linear flow (fractured wells) than in radial flow.
In radial flow (unfractured wells), oil-productive zones must be protected during gelant placement.
Low k
High k
SPE 17332116
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Distinction between a blocking agent and a mobility-control agent.
Low k
High k
Low k
High kBlocking Agent
For a mobility control agent, penetration into low-k zones should be maximized.
For a blocking agent, penetration into low-k zones should be minimized.
Mobility-ControlAgent
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GEL TREATMENTS ARE NOT POLYMER FLOODS
Crosslinked polymers, gels, gel particles, and “colloidal dispersion gels”:
•Are not simply viscous polymer solutions.
•Do not flow through porous rock like polymer solutions.
•Do not enter and plug high-k strata first and progressively less-permeable strata later.
•Should not be modeled as polymer floods.118
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Coning or Cusping
Flow Behind Pipe and Casing LeaksOpen Water Zone
Oil
Water
Channeling from Injectors
CAUSES OF EXCESS WATER PRODUCTION
Water
Oil
Oil
Water
WaterOil
Fracture
Water
A STRATEGY FOR ATTACKING EXCESS WATER PRODUCTIONSPEPF (August 2003) pp. 158-169
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•Cement, sand plugs, calcium carbonate.•Packers, bridge plugs, mechanical patches.•Pattern flow control.• In fill drilling/well abandonment.•Horizontal wells.•Gels.•Polymer floods.•Resins.•Foams, emulsions, particulates, precipitates,
microorganisms.
WATER CONTROL METHODS
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PROBLEMOperators often do not adequately diagnosethe cause of their water production problems.
WHY NOT?1. Diagnosis requires money and time,2. Uncertainty about which methods are cost-
effective for diagnosing specific problems,3. Preconception that only one type of problem
exists or that one method will solve all typesof problems,
4. Some companies encourage a belief thatthey have "magic-bullet" solutions.
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A STRATEGY FOR ATTACKINGEXCESS WATER PRODUCTION
1. Consider and eliminate the easiest problems first.
2. Start by using information that you already have.
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Excess Water Production Problems and Treatment Categories(Categories are listed in increasing order of treatment difficulty)
Category A: “Conventional” Treatments Normally Are an Effective Choice1. Casing leaks without flow restrictions.2. Flow behind pipe without flow restrictions. 3. Unfractured wells (injectors or producers) with effective crossflow barriers.
Category B: Treatments with Gelants Normally Are an Effective Choice4. Casing leaks with flow restrictions.5. Flow behind pipe with flow restrictions.6. “Two-dimensional coning” through a hydraulic fracture from an aquifer.7. Natural fracture system leading to an aquifer.
Category C: Treatments with Preformed Gels Are an Effective Choice8. Faults or fractures crossing a deviated or horizontal well.9. Single fracture causing channeling between wells.10.Natural fracture system allowing channeling between wells.
Category D: Difficult Problems Where Gel Treatments Should Not Be Used11. Three-dimensional coning.12.Cusping.13.Channeling through strata (no fractures), with crossflow. 123
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WHAT DIAGNOSTIC TOOLS SHOULD BE USED?1. Production history, WOR values, GOR values 2. Pattern recovery factors, zonal recovery factors3. Pattern throughput values (bubble maps)4. Injection profiles, production profiles5. Zonal saturation determinations (from logs, cores, etc.)6. Injectivities, productivites (rate/pressure), step rate tests7. Casing/tubing integrity tests (leak tests)8. Temperature surveys, noise logs9. Cement bond logs 10.Televiewers, FMI logs11. Interwell transit times, water/hydrocarbon composition12.Mud losses & bit drops while drilling13.Workover & stimulation responses, previous treatments14.Pressure transient analysis, Inter-zone pressure tests15.Geological analysis, seismic methods, tilt meters16.Simulation, numerical, analytical methods17.Other 124
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DIAGNOSTICS
We have A LOT of diagnostic methods available.We need a strategy to decide which methods should be
examined/applied first.
Possible approaches:1. Use whatever tool is currently trendy and being
pushed the hardest by my favorite service company.2. Use the tools that have been popular in the past for
this field.3. Use a strategy that is focused finding the cause of
channeling and/or excess water production.
Strategy:1. Look for the easiest problems first.2. Start by using information that you already have. 125
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KEY QUESTIONS IN OUR APPROACH
1. Does a problem really exist?2. Does the problem occur right at the wellbore (like
casing leaks or flow behind pipe) or does it occur out beyond the wellbore?
3. If the problem occurs out beyond the wellbore, are fractures or fracture-like features the main cause of the problem?
4. If the problem occurs out beyond the wellbore and fractures are not the cause of the problem, can crossflow occur between the dominant water zones and the dominant hydrocarbon zones?
Respect basic physical and engineering principles.Stay away from black magic.
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DOES A PROBLEM REALLY EXIST?
Are significant volumes of mobile hydrocarbon present?
Are recovery factors and/or WOR values much greater than neighboring wells or patterns?
Are recovery values much less than expected after considering existing drive mechanism, existing stratification, structural position of the wells, injection fluid throughput, and existing mobility ratio?
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FIRST SET OF DIAGNOSTIC TESTS
Recovery factor in view of:
• Producing water/oil ratio, GOR.• Neighboring wells and patterns.• Drive mechanism.• Reservoir stratification.• Structural position.• Injection fluid throughput.• Water/oil mobility ratio.
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WOR DIAGNOSTIC PLOTS
WOR vs. time can be very valuable in determining:1. When the problem developed,2. The severity of the problem,3. What the problem is, IF VIEWED ALONG WITH
OTHER INFORMATION.
BUT WOR or WOR derivative plots CANNOT by themselves distinguish between channeling and coning. See Chapter 2 of our 1997 Annual Report
Distinguishing between matrix and fracture problems is much more important than distinguishing between channeling and coning.
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Oil
Water
Oil
Water
CATEGORY A: EASIEST PROBLEMS“Conventional” Treatments Normally Are an Effective Choice
1. Casing leaks without flow restrictions (moderate to large holes).
2. Flow behind pipe without flow restrictions (typically no primary cement).
3. Unfractured wells (injectors or producers) with effective barriers to crossflow.
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Does the problem occur right at the wellbore?Is the problem a leak or flow behind pipe?
Leak tests/casing integrity testsTemperature surveysRadio-tracer flow logsSpinner surveysCement bond logs Borehole televiewersNoise logs
SECOND SET OF DIAGNOSTIC TESTS
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CATEGORY B:INTERMEDIATE DIFFICULTYTreatments with GELANTS
Normally Are an Effective Choice
4. Casing leaks with flow restrictions (pinhole leaks).
5. Flow behind pipe with flow restrictions(narrow channels).
6. “Two-dimensional coning” through ahydraulic fracture from an aquifer.
7. Natural fracture system leading to an aquifer.
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Oil Oil
Water WaterFracture faces
Frac
ture
Gel
Gel
Problem 6: “Two-dimensional coning” through a hydraulic fracture from an aquifer.
•Need a gel that reduces kw much more than ko or kgas.
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Problem 7:Natural fracture system leading to an aquifer.
•Many successful gelant treatments applied in dolomite formations.•Treatment effects were usually temporary.•Recent, longer lasting successes seen with preformed gels.
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CATEGORY C:INTERMEDIATE DIFFICULTY
Treatments with PREFORMED GELSAre an Effective Choice
8. Faults or fractures crossing a deviated or horizontal well.
9. Single fracture causing channeling between wells.
10. Natural fracture system allowing channeling between wells.
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water
oil
fracture or faulthorizontal well
FRACTURES OR FAULTS OFTEN ALLOW UNCONTROLLED WATER
ENTRY INTO HORIZONTAL OR DEVIATED WELLS.
Problem 8
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water
oil
fracture or fault
GELANT
FLUID GELANT SOLUTIONS CAN DAMAGE THE OIL ZONES
Problem 8
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water
oil
horizontal well and fracture filled with gel
FORMED GELS WON’T ENTER POROUS ROCK. INSTEAD THEY EXTRUDE INTO THE FRACTURE
(gel can be washed out of well later)
Problem 8: SPE 65527
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HELPFUL INITIAL INDICATORS OF FRACTURES
• Well history (intentional stimulation).• Injectivity or productivity much higher than
expected from Darcy’s law for radial flow.• Results from step-rate tests.
• Speed of water breakthrough or other tracer.
• Fluid loss during drilling.• Pulse test responses, or pumper observations.
• FMI logs• Seismic
THIRD SET OF DIAGNOSTIC TESTS
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Does my well have a linear-flow problem?(e.g., a fracture)
Injectivity or productivity data oftenprovides a low-cost method for diagnosis.
Radial (matrix) flow probable:q/p ( k h)/[141.2 µ ln (re / rw)]
Linear (fracture-like) flow probable:q/p >> ( k h)/[141.2 µ ln (re / rw)]
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ESTIMATING FRACTURE CONDUCTIVITY FROM INJECTIVITY OR PRODUCTIVITY DATA
Assume:• Vertical well with a vertical fracture• If multiple fractures are present, the widest fracture
dominates flow.• The fracture has a much greater flow capacity than
the matrix.• The fracture has two wings.
qtotal = qmatrix + qfracture = (p hf /µ) [km/ln(re/rw) + 2kfwf/Lf]
kfwf = {[qtotal µ/(p hf)] - [km/ln(re/rw)]} Lf /2
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RELATION BETWEEN FRACTURE WIDTH, PERMEABILITY, AND CONDUCTIVITY
kf wf (darcy-ft) = 1.13x10-5 (kf)1.5, where kf is in darcys.kf wf (darcy-cm) = 3.44x10-4 (kf)1.5, where kf is in darcys.
wf (ft) = 5.03x10-4 (kfwf)1/3, where kfwf is in darcy-ft.wf (mm) = 0.153 (kfwf)1/3, where kfwf is in darcy-ft.
wf (mm) = 3.44x10-3 (kf)0.5, where kf is in darcys.
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0.0001
0.001
0.01
0.1
1
10
100
1000
10000
100000
1000000
0.01 0.1 1 10Fracture width, mm
Frac
ture
con
duct
ivity
, dar
cy-ft
1
10
100
1000
10000
100000
1000000
10000000
Frac
ture
per
mea
bilit
y, d
arcy
s
THE WIDEST FRACTURE DOMINATES FLOW
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0.1
1
10
100
1000
0.1 1 10 100 1000Interwell tracer transit time, days
Effe
ctiv
e pe
rmea
bilit
y of
the
flow
pat
h,
darc
ys
.
MATRIX OR FRACTURE FLOW?
=1 cp, p=2000 psi, re=1000 ft.L~2re, which depends on well spacing
Matrix flowprobable
Fracture flowprobable
k ~ re2 /(4t p)
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ESTIMATING FRACTURE PERMEABILITY FROM TRACER TRANSIT TIMES
Assume the widest fracture dominates flow.
kf = qµL/[hfwf p] = (Lhfwf/t)µL/[hfwf p] = (L2 µ) /(p t)
Where: L is fracture length (~distance between wells),µ is fluid viscosity (usually of water),p is the pressure drop between wells,t is tracer transit time between wells.
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hydrocarbon
w ater
CATEGORY D:MOST DIFFICULT PROBLEMS
GELANT or GEL Treatments Should NOT Be Used
11. Three-Dimensional Coning
13. Channeling through strata (no fractures),with crossflow.
12. Cusping
water
hydrocarbongel
high k
low k
gelant
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Is the problem accentuated by crossflow?Pressure test between zones,Various logs for determining fluid saturations, permeabilities, porosities, and lithologiesInjection/production profilesSimulationSeismic and geophysical methods
FOURTH SET OF DIAGNOSTIC TESTS
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PREDICTING EXCESS WATER PRODUCTIONFACTORS LEADING TO PROBLEMS
1. Bad cement or factors inhibiting cementation.2. Corrosive brines or gases. 3. Wellbore abuse during work-overs or well
interventions.4. Natural fractures (if oriented wrong).5. Large permeability contrasts.6. Low permeability rock (if induced fractures are
oriented wrong).7. Viscous oils or unfavorable mobility ratios.8. Close proximity of an aquifer or gas cap.9. Crossflow, under the wrong conditions (Items 5, 6,
and 7 above).10.Particulates or emulsions in injection water.
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A STRATEGY FOR ATTACKINGEXCESS WATER PRODUCTION
1. Consider and eliminate the easiest problems first.
2. Start by using information that you already have.
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Excess Water Production Problems and Treatment Categories(Categories are listed in increasing order of treatment difficulty)
Category A: “Conventional” Treatments Normally Are an Effective Choice1. Casing leaks without flow restrictions.2. Flow behind pipe without flow restrictions. 3. Unfractured wells (injectors or producers) with effective crossflow barriers.
Category B: Treatments with Gelants Normally Are an Effective Choice4. Casing leaks with flow restrictions.5. Flow behind pipe with flow restrictions.6. “Two-dimensional coning” through a hydraulic fracture from an aquifer.7. Natural fracture system leading to an aquifer.
Category C: Treatments with Preformed Gels Are an Effective Choice8. Faults or fractures crossing a deviated or horizontal well.9. Single fracture causing channeling between wells.10.Natural fracture system allowing channeling between wells.
Category D: Difficult Problems Where Gel Treatments Should Not Be Used11. Three-dimensional coning.12.Cusping.13.Channeling through strata (no fractures), with crossflow. 150
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KEY QUESTIONS IN OUR APPROACH
1. Does a problem really exist?2. Does the problem occur right at the wellbore (like
casing leaks or flow behind pipe) or does it occur out beyond the wellbore?
3. If the problem occurs out beyond the wellbore, are fractures or fracture-like features the main cause of the problem?
4. If the problem occurs out beyond the wellbore and fractures are not the cause of the problem, can crossflow occur between the dominant water zones and the dominant hydrocarbon zones?
Respect basic physical and engineering principles.Stay away from black magic.
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FIELD EXAMPLES
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QUESTIONS FOR FIELD PROJECTS•Why did you decide there was a problem?
•What did you do to diagnose the problem?
•What types of solutions did you consider?
•Why did you chose your solution over others?
•How did you size and place the treatment?
•Did it work? How do you know?
•What would you do different next time?
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UNFRACTURED WELLS WITHOUT CROSSFLOW
Water Oil Gelant
Low k
High k
packer
Possible SolutionsCementSand plugs (if water zone is on the bottom)Mechanical devices (bridge plugs, packers)GelsResins
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Blocking Agent Placement
In both injection wells and production wells, gelants and similar blocking agents can penetrate into all open zones.
In radial flow (unfractured wells), oil-productive zones must be protected during gelant placement.
WaterOilGelantLow k
High k
SPE 17332
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Water
Without crossflow--gel can be effective.
OilOil
WaterGel Gel
With crossflow--gel is ineffective.
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In-depth channeling problem, no vertical fractures, no vertical communication, zone isolation used:
Inject enough gelant to get desired injectivity or productivity reduction in the water zone.
Low k
High k
packer
Water Oil Gelant
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0
0.2
0.4
0.6
0.8
1
1 10 100Residual resistance factor
Frac
tion
of o
rigin
al
prod
uctiv
ity o
r inj
ectiv
ity 40-acre 5-spot pattern,rw = 0.33 ft
rgel = 5 ft
rgel = 50 ft
IN RADIAL FLOW, LOSSES ARE MORE SENSITIVE TO PERMEABILITY REDUCTION
THAN TO RADIUS OF GELANT PENETRATION
This figure applies to both injection and production wells.It also applies to both oil and water production.
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SPE 24193Shell Canada’s Profile Control Gel
Treatments in a Miscible IOR Project
•Virginia Hills Beaverhill Lake Unit, Alberta.•Field discovered in 1957.•Waterflood started in 1963 (36% OOIP ultimate).•Miscible flood started in 1989 (8% OOIP IOR).•52 producers, 14 injectors, inverted 9-spot.
•Stratified Devonian reef reservoir.•5 separate zones spread over 250 ft.•k varies from 5 to 1000 mD. varies from 5 to 15%.•Reservoir pressure can vary from 2600 to 4000 psi
within a given wellbore (depending on the zone).•80-acre spacing. 220°F (105°C), 4% TDS salinity.
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SPE 24193: Shell’s Gel Treatments: Choice of TreatmentWant to flood all zones simultaneously.•Mechanical methods were used in 9 of 14 injectors.•Minimum spacing between packers must be 30 ft.•Minimum spacing between perforations: 5 ft.•In wells selected for gel treatments, 90% of fluid was
entering 10% of the pay interval.•Phenol-formaldehyde was stable at 220°F, 4% salinity.
•11% phenol-formaldehyde mixed in fresh water.•1 cp gelant. Gelation time: 90 minutes at 220°F.•Injection water temperature: 85°F (30°C).•Injected solvent (gas) temperature: 40°F (4°C).•Core tests indicated gel caused 20X k reduction.•Gelant volume: 20 bbl/ft to reach 20-23 ft radius.•Injection rate: 2 bbl/min. Pump time: ~ 2 hours.•Zone isolation during gelant injection.
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SPE 24193, Shell Canada Injector Treatment
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SPE 24193, Shell Canada Injector Treatment
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SHELL CANADA: PROBLEM 1Shell found that their phenol-formaldelhyde gel (that contained 11% active material) reduced permeability of a 500-md core by a factor of 20. Does this result suggest that a strong gel formed?
Expected Values:kgel inherent = 125 C-3 = 125 (11)-3 = 0.094 D
Frrw = kbrine before gel / kgel inherent = 0.5/0.094x10-6 = 5.3x106
versus 20 actual.
It looks like a very weak gel formed.
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SHELL CANADA: PROBLEM 2Shell found that their phenol-formaldelhyde gel, when placed to a 20 ft radius from injection Well 12-25, reduced the flow capacity of a 10-ft-thick thief zone (at 9120 ft) to an undetectable level. Assume re=1000 ft, rw=0.5 ft, and static downhole pressure was 3950 psi. w=0.25 cp. Before gel placement, the wellhead pressure was 600 psi with an injection rate of 5670 BWPD. After gel placement, the wellhead pressure was 2100 psi.
2A. What water flow rate into the thief zone would have been expected if Frrw was really 20?
2B. If our limit of flow detection was 100 BPD, what was the minimum actual in situ Frrw?
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SHELL CANADA: PROBLEM 2Arp=20 ft, h=10 ft, depth=9120 ft, re=1000 ft, rw=0.5 ft, pr= 3950 psi, w=0.25 cp. Before gel placement, the wellhead p=600 psi at 5670 BWPD. After gel placement, the wellhead p=2100 psi and flow was undetectable into the thief zone. What water flow rate into the thief zone would have been expected if Frrw was really 20?
q = p kh /[141.2 ln(re/rw)] k = q 141.2 ln(re/rw)]/(p h)k=5670(141.2)0.25[ln(1000/0.5)]/[10(600+9120(0.433)-3950)]k = 254 md
q = {p k h /[141.2 ]} / [Frr ln(rp/rw) + ln(re/rp)]q = [2100+9120(0.433)-3950]254(10)/[141.2(0.25) /
[20 ln(20/0.5) + ln(1000/20)]q = 1945 BPD
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SHELL CANADA: PROBLEM 2Brp=20 ft, h=10 ft, depth=9120 ft, re=1000 ft, rw=0.5 ft, pr= 3950 psi, w=0.25 cp. Before gel placement, the wellhead p=600 psi at 5670 BWPD. After gel placement, the wellhead p=2100 psi and flow was undetectable into the thief zone. If our limit of flow detection was 100 BPD, what was the minimum actual in situ Frrw?
q = {p k h /[141.2 ]} / [Frr ln(rp/rw) + ln(re/rp)]
100 = [2100+9120(0.433)-3950]254(10)/[141.2(0.25) / [Frrw ln(20/0.5) + ln(1000/20)]
Minimum in situ Frrw = 409So the gel formed much stronger in the field than in the laboratory.
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SHELL CANADA: PROBLEM 3Shell placed their phenol-formaldelhyde gel to a 20 ft radius in injection Well 4-20. In a 16-ft-thick thief zone (at 9165 ft), 3220 BWPD was injected at 1750 psi WHP. Assume re=1000 ft, rw=0.5 ft, and static downhole pressure was 3968 psi. w=0.25 cp. After gel placement, the injection rate was 275 BWPD at 1400 psi WHP. What was the in situ residual resistance factor (Frrw)?
k = q 141.2 ln(re/rw)]/(p h)k=3220(141.2)0.25[ln(1000/0.5)]/[16(1750+9165(0.433)-3968)]k = 31 md
q = {p k h /[141.2 ]} / [Frr ln(rp/rw) + ln(re/rp)]275 = [1400+9165(0.433)-3968]31(16)/[141.2(0.25) /
[Frrw ln(20/0.5) + ln(1000/20)]
In situ Frrw = 18, which is similar to the lab value of 20. 167
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GEL TREATMENTS FOR RADIAL (MATRIX) FLOW PROBLEMS• Zones MUST be separated by impermeable barriers.• Hydrocarbon-productive zones MUST be protected during
gelant injection.• Loss of water productivity or injectivity is not sensitive to
radius of gelant penetration between 5 and 50 ft.• Gel permeability reductions > 20 cause > 80% loss of water
productivity.
Low k
High k
packer
WaterGelant
Oil
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water
oil
horizontal well and fracture filled with gel
FORMED GELS WON’T ENTER POROUS ROCK. INSTEAD THEY EXTRUDE INTO THE FRACTURE
(gel can be washed out of well later)
SPE 29475 & SPE 65527: ARCO's (Bob Lane) use of Cr(III)-acetate-HPAM gels to plug a fault intersecting a horizontal well.
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water
oil
fracture or faulthorizontal well
FRACTURES OR FAULTS OFTEN ALLOW UNCONTROLLED WATER
ENTRY INTO HORIZONTAL OR DEVIATED WELLS.
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water
oil
fracture or fault
GELANT
FLUID GELANT SOLUTIONS CAN DAMAGE THE OIL ZONES
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water
oil
horizontal well and fracture filled with gel
FORMED GELS WON’T ENTER POROUS ROCK. INSTEAD THEY EXTRUDE INTO THE FRACTURE
(gel can be washed out of well later)
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SPE 29475ARCO's (Bob Lane) use of Cr(III)-acetate-HPAM gels
to plug a fault intersecting a horizontal well
•Prudhoe Bay near-horizontal (85°) well.•11,853-ft length, 9009-ft true vertical depth.• Initial production was 1,500 BOPD with 24% water cut.
After 3 months: 400 BOPD with 90% water cut.•Reservoir pressure ~3,200 psi.
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SPE 29475: Problem Diagnosis
•Lost circulation noted during drilling at 11,327 ft.•Gamma ray/neutron logs showed washed out shale at
11,335 ft.•Cement bond log indicated poor cementing above
11,338 ft.•Spinner log indicated most fluid coming from 11,327
to 11,345 ft.•Temperature anomaly at 11,338 ft.•Water analysis indicated all of it was formation water.
Conclusion: A fault-like conduit exists near 11,338 ft that connects to the underlying Sadlerochit aquifer.
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SPE 29475: Treatment, Sizing, and Placement
•12,000 bbl Cr(III)-acetate-HPAM gel. (Cement squeeze was expensive and unlikely to work.)
•Treatment sizing was subjective. (12,000 bbl was all they felt that they could afford.)
•Bullhead injection of gel.•Pump time was 100 hours. Gel was extruded into the fault during placement.
•Well shut in for 5 days to allow gel to cure.
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Polymer,wt %
Wellhead pressure, psi
Volume,bbls
0.3 400 – 0 22 (preflush)0.3* 0 – 250 2,0450.45* 225 – 525 5,5000.6* 500 – 675 3,2250.9* 725 – 800 7400.3 800 100 (postflush)
2 BPM injection rate throughout.*[HPAM]/[Cr(III) acetate] = 12/1.
GEL INJECTION SEQUENCE
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TimeOil
rate,BOPD
Water rate,
BWPD
Water cut,%
Oil PI,BOPD/psi
Water PI,BWPD/psi
11/93 466 4,290 90 0.32 2.95Post-job
543 1,700 76 0.24 0.74
+ 1 mon.
727 1,895 72 0.30 0.78
+ 1 year
665 2,175 77
+ 1.5 years
567 2,410 81
TREATMENT RESULTS
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CONNECTING LABORATORY & FIELD RESULTS(SPE 65527)
•Was the problem a fault or fracture?•How wide was the fault or fracture?•How far into the fault should the gel penetrate?•Was the injected material a gel or gelant?•How effectively did the gel seal the fault?
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WAS THE PROBLEM A FAULT OR FRACTURE?
•Matrix or fracture flow?•Fracture flow: q/p >> k h / [141.2 ln (re / rw)].• (4,290 BWPD + 466 BOPD)/[1,450 psi] = 3.3 BPD/psi.• (100 mD x 0.1 x 18 ft)/[141.2 x 0.3 x 6] = 0.7 BPD/psi.•3.3 / 0.7 = 4.7.
Therefore, a fracture-like flow problems exists.
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HOW WIDE WAS THE FAULT OR FRACTURE?
•Assume all water comes from fault.•Radial flow into fracture:
q/p = kf wf / [141.2 ln (re / rw)].•Assume all water comes from fault: q = 4,290 BPD.
Water PI = q/p = 2.95 BWPD/psi.• = 0.3 cp.• ln (re / rw) ~ 6.•kf wf = 2.95 x 141.2 x 0.3 x 6 = 0.75 darcy-ft.• wf = 12 x 5.03 x 10-4 x (kf wf )1/3 = 0.0055 in. = 0.14 mm
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0
2
4
6
8
0.1 1 10 100 1000
Distance of gel penetration into fracture, ft
Prod
uctiv
ity re
lativ
eto
no
frac
ture
cas
e
HOW FAR SHOULD THE GEL PENETRATE?
• For single fractures that cut horizontal wells, only moderate gel penetration is needed.
• Conclusion is not valid in vertical wells or if multiple fractures or a natural fracture system is present.
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WAS THE INJECTED MATERIAL A GEL OR GELANT?
• Injection rate: 2 BPM.•Volume from wellhead to fault: 225 barrels.•Transit time from wellhead to the fault: ~2 hours.•Gelation time at 26°C: ~15 hours.•Gelation time at 90°C: ~10 minutes.•Total injection time: ~100 hours.
Injected material was gel during most, if not all of the gel placement process.
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HOW EFFECTIVELY DID GEL SEAL THE FAULT?
BEFORE GEL:•Radial flow into fracture: q/p = kf wf / [141.2 ln (re / rw)].•Water PI = q/p = 2.95 BWPD/psi.• = 0.3 cp, ln (re / rw) ~ 6.•kf wf = 2.95 x 141.2 x 0.3 x 6 = 0.75 darcy-ft.
AFTER GEL:•Water PI = q/p = 0.78 BWPD/psi.•kf wf = 0.78 x 141.2 x 0.3 x 6 = 0.198 darcy-ft.
REDUCTION IN FRACTURE CONDUCTIVITY:• (0.75-0.198)/0.75 = 74% reduction..• Implies fault is not completely sealed but calculation is
conservative because it assumes all water came from the fault.
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•Simple calculations can give at least arudimentary indication of the width of thefracture or fault that causes excess waterproduction—which is relevant to the choice ofgel.
•During field applications, accurate flowing andstatic downhole pressures should be made atleast before and after the gel treatment isapplied. Some very useful insights can also begained if downhole pressures are measuredduring gel injection.
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NATURALLY FRACTURED RESERVOIRS
Injector Producer
Want to restrict fluid channeling through the most direct fracture(s).Don't want to damage the secondary fractures (since they are important in allowing high well injectivities and productivities).
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Injector Producer
Naturally fractured reservoirs:Impressive well-documented cases,Greatest successes used large gel volumes,Optimum sizing unknown.
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GEL EXTRUSION THROUGH FRACTURES•Formed GELS injected instead of GELANT solutions.•Gels extrude through fractures—no flow in porous rock.•Successful field applications in treating:
•Fractures or faults that cross horizontal wells.•Water or gas channeling through natural fractures.
•Gel dehydration and pressure gradients depend on wf .• Interwell tracers and injectivity/productivity data can
indicate wf for the most serious fracture(s).•Gel sizing procedure is under development but:
•Fastest injection yields the greatest gel penetration.•Slower injection increases gel’s staying power.•At a given rate, a 3X increase in gel volume yields a 2X
increase in distance of gel penetration.•More information: SPE 65527, SPEPF (Nov. 1999) 269-
276, SPEPF (Nov. 2001) 225-231.
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Wertz RangelySPE paper 27825 56008
µ oil, cp 1.38 1.7k, md 13 10
Lithology sandstone sandstoneThickness, ft 240 175
T, °C 74 71No. of treatments 8 44
HPAM, ppm 5000-8000 3000-8000Treatment size, bbl 10,000-20,000 8,900-20,000
EOR/well, BOPD 100-300 21EOR, total bbl 735,000 685,000Total cost, $ 963,000 2,060,500
Cr(III)-acetate-HPAM Treatments to Reduce Channeling during WAG CO2 Projects in
Fractured Sandstone Reservoirs
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SPE 39612: Chevron’s Large Volume Gel Treatments in Injection Wells During a CO2
Flood in a Naturally Fractured Reservoir
•Rangely field. Weber eolian sandstone.•675 ft gross thickness, 175 ft net pay.•6 distinct sand units•=11%, k=10 mD.•376 producers, 278 injectors•Discovered: 1933. First produced: 1944.
Perpherial waterflood since 1958. Pattern waterflood since 1969.
•CO2 flood since 1986.
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SPE 39612: Chevron’s Rangely FieldProblem Diagnosis
•Extreme variability in CO2 performance from pattern to pattern.
•Several patterns with rapid breakthrough.•Pattern reports showed “under and over
processed” zones.•Chevron created a sophisticated rating
system to quantify the merit for treatment.
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SPE 39612: Chevron’s Rangely FieldDid Fractures Cause the Problem?
•Injectivity was 23X greater than expected from Darcy’s Law for radial flow.
•CO2 breakthrough noted at 24 hrs with 1,300’ well spacing--55 ft/hr propagation rate.
•Average effective permeability = 10 md, yet they routinely placed 10,000 bbls of polymer gel into formation.
•Linear flow character seen in injection well fall-off test data.
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Chevron’s Rangely Field—Conformance Methods Applied
•Selective injection equipment (SPE 21649).
•Water-alternating-gas (SPE 27755).•Recompletion (SPE 27756).•Pattern realignment (SPE 27756).•Gelled foams (SPE 39649).•Gels (SPE 39612).
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SPE 39612: Chevron’s Gel TreatmentsTreatment Design
•Water injected for ~1 week before treatment.•Cr(III)-acetate-HPAM gel.•10,000-20,000 bbl injected per treatment.•Typical injection time: 8-10 days.•0.5% HPAM in gel mostly, but ramped up to
0.85% HPAM at end.•Flushed with 3 tubing volumes of water at end.•Shut well in for 1 week.•Inject water first on return to injection.
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SPE 39612: Chevron’s Gel TreatmentsRange of Responses (44 Treatments Total)
•No response.•Smoothing of production.•Reduction in water.•Reduction in gas. •Areal sweep improvement.•Oil rate increase.•Reduction or elimination of oil decline.•Better pattern CO2 retention & utilization.
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SPE 39612: Chevron’s Gel TreatmentsExample: Treatment Smooths Production
•Rapid breakthrough from injector to producer.
•No other producers supported.•Thief appeared confined to one zone.•Previous attempts at near-wellbore control
were unsuccessful.• Liner, selective perforations.• Small-volume Cr(III)-acetate-HPAM
treatments.
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100
1000
10000
Jan-
94Ja
n-94
Mar
-94
Apr
-94
May
-94
Jun-
94Ju
l-94
Aug
-94
Sep-
94O
ct-9
4N
ov-9
4D
ec-9
4Ja
n-95
Feb-
95M
ar-9
5A
pr-9
5M
ay-9
5Ju
n-95
Jul-9
5A
ug-9
5Se
p-95
Oct
-95
Nov
-95
Dec
-95
Jan-
96Fe
b-96
Mar
-96
Apr
-96
May
-96
Jun-
96Ju
l-96
Aug
-96
Sep-
96O
ct-9
6N
ov-9
6D
ec-9
6Ja
n-97
Feb-
97M
ar-9
7A
pr-9
7
BPD
/MC
FD/R
SVB
BLS
Oil (BPD) Water (BPD)
Gas (MSCFPD)10,300 bbl 5,500 ppm
Polymer treatmentLN Hagood A-5
water
gas
oil
SPE 39612: Chevron’s Gel TreatmentsExample: Treatment Smooths Production
100
10,000
1,000
SB Lacy 1 ProducerJa
n 94
Jul 9
4
Jan
95
Jul 9
5
Sep
95
Jan
96
Jul 9
6
Jan
97
Apr
97
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SPE 39612: Chevron’s Gel TreatmentsResults: 1994-1996
•Investment = $2,060,500.•ROR: 365%. Payout: 8 Months.•IOR: 685,000 BO.•Success Rate: 80%.•Average change per treated well:
+20 BOPD, -100 BWPD, -100 MCFPD
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SPE 39612: Chevron’s Gel TreatmentsLessons Learned
•Rapid communication and associated poor CO2economic performance are the most important candidate selection criteria.
•Larger, >15,000 bbl treatments have been successful.•Chase well treatments are highly successful.•Best results have been in the best part of the field.•CO2 thief should also be H2O thief.•H2O injection rate > 1,200 BPD.•Avoid high BHP area of field.•Post-job reservoir management critical.
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1000
10000
100000
1000000
10 100 1000
Volume of gel injected, bbl/ft of net pay
Incr
emen
tal o
il re
cove
ry,
bbl
AmocoMarathonChevron
Incremental oil recovery generally increased with gel treatment size.
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Good Papers Where Naturally FracturedInjection Wells Were Treated
• Amoco's large-volume gel treatments in CO2injectors. SPE 27825.
• Marathon's large-volume gel treatments in waterflood injectors. SPE 27779 & O&GJ 1/20/92.
• Imperial's large-volume gel treatments waterflood injectors. SPE 38901.
• Chevron's use of multiple methods in the same field, including recompletions, polymer gels, gelled foams, pattern realignment and selective injection equipment. SPE 21649, 27755, 27756, 30730, 35361.
• Kinder Morgan SACROC treatments. SPE 169176200
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SACROC/KELLY-SNYDER FIELD SPE 169176
• Kinder Morgan WAG CO2 flood. 19-md limestone.• 500-1200 sacks of cement worked for some of
the worst channeling problems.• Mechanical methods sometimes helped if
distinct zones were watered out. • Crystalline polymer squeezes were the least
successful method.• 5000-10000 bbl Cr(III)-acetate-HPAM treatments
did not last long. Judged too small.• ~20,000 bbl Cr(III)-acetate-HPAM treatments.• 5000-12000-ppm HPAM.• Ending injection of 30,000-ppm HPAM or cement.
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SACROC/KELLY-SNYDER FIELD SPE 169176
• In “P1” area, 29 treatments with ~13000 bbl gel/treatment—reducing GOR from 30 to 20 mcf/bbl and producing 770000 bbl EOR at a cost of $1.88/bbl.
• In “P2” area, 30 treatments with ~17000 bbl gel/ treatment—yielding $1.50 cost/bbl EOR.
• Biggest problem has been produced polymer. Suggested solution: build injection pressure more rapidly (e.g., by increasing HPAM content).
• In total, have injected over one million bbl of polymer during 77 treatments.
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DETAILS OF ONE GEL TREATMENT.KUPARUK RIVER UNIT—ALASKA
SPE 179649
• ConocoPhillips. Miscible hydrocarbon WAG.• Highly fractured/faulted multilayer sandstone.• A single 45000-bbl Cr(III)-acetate-HPAM
treatment, increasing HPAM from 0.3%-1%. • Describes detailed methodology associated
with the design, execution, and assessment of the treatment.
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Natural fracture system leading to an aquifer.
• Many successful polymer/gelant treatments were applied to reduce water production.
• Treatment effects were usually temporary.• Optimum treatment materials, sizing, and
design are currently unknown.• HOW SHOULD THESE TREATMENTS BE
DESIGNED AND EVALUATED?204
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JPT, April 1993, 356-362Phillips' Polymer and Gel Treatments
in Naturally Fractured Production WellsArbuckle formation of western Kansas.Naturally fractured dolomite reservoirs produced by bottom-water drive.
k ~ 140 md; oil column ~ 20 ft; completion interval ~ 5 ft.
Pre-treatment production:5 to 20 BOPD500 to 1,600 BWPD
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JPT, April 1993, 356-362Phillips' Polymer and Gel Treatments:
Problem DiagnosisReservoirs were well known to be naturally fractured.
Pretreatment productivities, q/dp, were 10-100 times greater than values expected for unfractured wells.
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JPT, April 1993, 356-362Phillips' Polymer and Gel Treatments:
Choice of Treatment, Sizing, and PlacementPerformed in the 1970's -- early in the development of the technology.
Applied 37 treatments with 8 different polymer-crosslinker combinations.
Average treatment size: 1070 lbs polymer. (Range: 390 to 1400 lbs).
Treatments sizes subjective.Bullhead injection.
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1959 1963 1967 1971 1975 1979 1983 1987 199110
100
1,000
10,000
Time, Years
Oil
Rate
or P
rodu
cing
WO
R Oil Rate, BOPMProducing Water-Oil Ratio
Polymer Treatment No. 2Incremental Oil = 3967 STB
Polymer Treatment No. 1Incremental Oil = 5286 STB
Phillips' well Hendrick #2 production response to polymer treatments ( , April 1993)JPT
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JPT, April 1993, 356-362Phillips' Polymer and Gel Treatments:
Treatment ResultsAverage incremental recovery: 1.9 STB/lb polymer. (Range: -1 to 13 STB/lb).
Average treatment lifetime: 12 months. (Range: 2 to 43 months).
Gel treatments typically reduced total fluid productivity by a factor of two, so the fractures were restricted but still open.
Uncrosslinked polymers worked as well as gels.Many other materials have been used in the Arbuckle formation. Some say that anything will work.
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JPT, April 1993, 356-362Phillips' Polymer and Gel Treatments:
Treatment ResultsIOR, treatment lifetime, and WOR reduction did not correlate well with:
lbs. polymer injected (390 - 1,400 lbs/well),type of polymer or gel treatment (8 types used),productivity reduction induced by the treatment (1 - 5),structural position of the completion,completion type,fluid level before the treatment,Arbuckle reservoir.
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JPT, April 1993, 356-362Phillips' Polymer and Gel Treatments:
QuestionsWhy did IOR not correlate with important variables?Why did treatments using uncrosslinked HPAM perform as well as any other type of polymer or gel?
Uncrosslinked HPAM has some unknown special property. NOUncrosslinked HPAM happened to be applied in the best wells. MAYBEpH or other changes induced by the rock inhibited gelation. YES!
What is the mechanism of action for water shutoff treatments in naturally fractured productions wells?
Partial plugging of fractures?Selective plugging of porous rock next to fractures?Other?
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Gel Treatments Applied to the Kansas Arbuckle Formation
Per SPE Paper 89464• Over 250 gel treatments had been applied in
the Kansas Arbuckle fractured carbonate formation (2000-2003)
• Incremental oil production was the driver for conducting these gel treatments– Often reduced water production by a factor
exceeding 10 (not mentioned in this paper)
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• 7 gel treatments were studied where BHP & buildup pressure data were obtained– Water-production rates decreased in every well
(53–90%)– Incremental oil production obtained from 5 out
of 6 wells that were produced for 6 mo.– Oil PI increased following the gel jobs– Incremental oil production increased with
increasing volume of gel injected (for the open hole completions)
– “The duration of the response should be a function of the volume of gelant injected…”
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• Aggressive pre-gel-job acid treatments were preformed
• Initial oil production appears to increase, with decreasing gel-injection treating pressures
• Water shut off may increase somewhat, and last longer, with increasing gel-injection treating pressures
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Economics ofArbuckle Gel Treatments
(Source: PTTC website, R. Reynolds, 10/03)
• ~300 treatments– By over 30 operators– Analyzed the performance of 37 treated wells – Shutoff 110,000,000 bbl water– Gross IOP = 1,600,000 bbl oil
• “All of the wells have responded with significant reduction in water production….” (2/03 Reynolds quote)
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FIELD OPERATIONAL ISSUESRobert Lane, SPE 37243
1. Sampling and quality assurance.2. Polymer handling.3. Rigup issues.4. Treatment execution issues.5. Chemical incompatibilities.6. Post-treat well operations.
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SAMPLING AND QUALITY ASSURANCE
1. Laboratory samples and testing conditions must be representative of field materials and conditions. (Vendors sometimes provide samples to labs that are different from field products.)
2. Water used in lab tests must be representative of field water. (Field & lab people MUST communicate any important changes, like water source changes.)
3. Lab tests in the field MUST verify the behavior of delivered products (e.g., polymer ability to dissolve,polymer solution viscosity, gel times).
4. Pumps, mixers, and filters must not shear degrade the polymer.
5. Field samples for testing should be drawn near the wellhead.
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POLYMER HANDLINGSolid grade polymer (>90% active): • Minimizes shipping costs.• Requires specialized mixing equipment. • Residue or incomplete hydration creates fisheyes.
Solution concentrate (~20% active): • Easily pumped and diluted• Less complex mixing equipment.• Can be prepared “on the fly”, minimizing waste.• Has significantly higher shipping costs.
Liquid, slurry, or emulsion polymers (30-50% active):• Easily pumped and diluted (if lines are clean & dry).• Less complex mixing equipment; injection on the fly.• Intermediate shipping costs.• Special care required for clean dry lines, tanks, etc.
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FILTRATION
Views vary on what and where filters should be used.
Advisable to have two filters (10 µm) in parallel downstream of the mixing equipment.
• Avoids well plugging.• Gives a quality check on polymer
preparation.
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RIG UP ISSUES
1. Many equipment configurations are possible.2. Other things being equal, simpler is better.3. All transport trucks, tanks, hoses, pumps, lines and
mixing equipment MUST be clean and inspected by someone who has a major stake in project success.
4. “Clean” means carefully flushed with water compatible with gelant.• Residual water must be clear with neutral pH.• No oily or solid residues.• With slurry polymer, lines, tanks, etc. must be DRY.
5. Temperature extremes should be avoided, especially for connecting hoses.
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SIMPLE RIG UP EXAMPLE
chargepump
chemical blending, injection skid,
filters
High pressure pump with backup
tanks
wellhead
sample port
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COMPLEX RIG UP EXAMPLE
chargepump
chemical blending, injection skid,
filters
coil tubing unit
tanks
wellhead
sample port
backuppump
tanks forprotective fluid
pumpdown annulus
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RIG UP ISSUES—TANKS, PUMPS & HOSES
1. Many tank options exist (frac tanks, transport trucks, etc). Tanks should be sized so refilling and switching occurs at reasonable times (hours not minutes).
2. Low-pressure hoses, tanks, charge pumps, blenders, and filters used before the final high pressure pump.
3. Pumps, mixers, and filters must be selected to minimize mechanical degradation of the polymer.
4. Locate filtration equipment at blender discharge.5. Although “on the fly” mixing is conceptually
attractive, polymer mixing is often inadequate.6. High pressure injection pump is the final equipment
before the wellhead.7. Sample port must be close to the wellhead.
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TREATMENT EXECUTION ISSUES
1. Gelation time usually determines the pump time (except for some large treatments in fractures).• Downtime during pumping must be avoided.• Good polymer/gel quality control is needed.• Equipment redundancy can reduce downtime.
2. Surface equipment may limit the surface pressure. It’s best to have a pump with a high rate limit.
3. Parting pressure often limits downhole pressure.4. Pressure drop from surface to formation is usually
negligible unless coiled tubing is used.5. Hall plots help monitor pressure trends. (They do
NOT indicate where the gel is placed.)
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CHEMICAL INCOMPATIBILITIES
• Cationic corrosion inhibitors precipitate with anionic polymers (e.g., HPAM).
• Scale inhibitors can destroy gels made with metal crosslinkers [e.g., Cr(III)].
• Don’t apply these chemicals too soon before or after a gel treatment.
• Check lines, equipment and make-up water for these contaminants.
• Lab tests may help to establish compatibility.
• Rust, crude components, emulsion breakers, defoamers, water clarifiers, floatation aids, oxygen scavengers, H2S, and chlorine may affect gel chemistry.
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HALL PLOTS• provide a useful indication of the rate
of pressure increase,• indicate when gelant injection must
be stopped because of pressure limitations,
• do not indicate the selectivity of gel placement,
• do not indicate whether a treatment was sized properly.
Reference: DOE/BC/14880-5, pp. 73-80.
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0 5,000 10,0000
10,000
20,000
Cumulative injection, bbl
Cum
ulat
ive
p dt
, psi
-day
s
HALL PLOTS FOR WELLS WITH RADIAL FLOW
An increasing slope could result from:plugging the high-k zones more than the low-k zones,plugging the low-k zones more than the high-k zones, orplugging all zones to the same extent (most likely possibility).
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HALL PLOTS FOR FRACTURED WELLS
A decreasing slope could result from:opening or fracturing into previously unswept zones,re-opening a fracture that the gel had recently sealed,opening a fracture that cuts through all zones.
0 5,000 10,0000
5,000
10,000
Cumulative injection, bbl
Cum
ulat
ive
(p d
t), p
si-d
ays
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POST-TREATMENT WELL OPERATIONS
• Shut-in times depend on the gel and the nature of the problem treated.
• After shut-in, bring the well back into full service gently (over the course of days or weeks rather then hours).
• Post-treatment procedures should consider whether the gel treatment will be compromised (corrosion inhibitors, injecting above parting pressure, acid jobs, etc.).
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REVIEW OF THE MOST IMPORTANT CONCEPTS
The cause of the water production problem must be identified.Different design, sizing, and placement procedures must be used for different types of problems.For radial flow, hydrocarbon-productive zones must be protected during placement of chemical blocking agents.
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GEL TREATMENTS ARE NOT POLYMER FLOODS
Crosslinked polymers, gels, gel particles, and “colloidal dispersion gels”:
•Are not simply viscous polymer solutions.
•Do not flow through porous rock like polymer solutions.
•Do not enter and plug high-k strata first and progressively less-permeable strata later.
•Should not be modeled as polymer floods.231
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A STRATEGY FOR ATTACKINGEXCESS WATER PRODUCTION
1. Consider and eliminate the easiest problems first.
2. Start by using information that you already have.
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Excess Water Production Problems and Treatment Categories(Categories are listed in increasing order of treatment difficulty)
Category A: “Conventional” Treatments Normally Are an Effective Choice1. Casing leaks without flow restrictions.2. Flow behind pipe without flow restrictions. 3. Unfractured wells (injectors or producers) with effective crossflow barriers.
Category B: Treatments with Gelants Normally Are an Effective Choice4. Casing leaks with flow restrictions.5. Flow behind pipe with flow restrictions.6. “Two-dimensional coning” through a hydraulic fracture from an aquifer.7. Natural fracture system leading to an aquifer.
Category C: Treatments with Preformed Gels Are an Effective Choice8. Faults or fractures crossing a deviated or horizontal well.9. Single fracture causing channeling between wells.10.Natural fracture system allowing channeling between wells.
Category D: Difficult Problems Where Gel Treatments Should Not Be Used11. Three-dimensional coning.12.Cusping.13.Channeling through strata (no fractures), with crossflow. 233
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KEY QUESTIONS IN OUR APPROACH
1. Does a problem really exist?2. Does the problem occur right at the wellbore (like
casing leaks or flow behind pipe) or does it occur out beyond the wellbore?
3. If the problem occurs out beyond the wellbore, are fractures or fracture-like features the main cause of the problem?
4. If the problem occurs out beyond the wellbore and fractures are not the cause of the problem, can crossflow occur between the dominant water zones and the dominant hydrocarbon zones?
Respect basic physical and engineering principles.Stay away from black magic.
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